JP2006042322A - Method for optimizing energy consumption of communication station in network, and communication station - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for optimizing energy consumption of a communication station in a wireless LAN or the like so as to be adaptive to actual data traffic of the station without requiring user's positive association. <P>SOLUTION: A communication station (STA) monitors traffic of downlink data to be received and traffic of uplink data to be transmitted during a certain specific time interval in a LAC layer and selects an adaptive power saving mode (PSM) on the basis of a ratio of the downlink data traffic and the uplink data traffic, or the traffic of the downlink data to be received during a certain specific time interval. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for optimizing the energy consumption of, for example, a laptop, palmtop or mobile communication station (STA) in a network, preferably in a wireless LAN compliant with the IEEE standard 802.11.

  In wireless networks, mobile stations that typically operate on rechargeable batteries are interconnected. Since the energy consumption of the mobile station is a very important factor, a special function has been defined to support the power saving mode (PSM) of the mobile station. In the PSM defined by the IEEE 802.11 standard, there is a dependency between beacon interval (BI) and downlink delay. Downlink delay is defined as the delay from when a frame is received by an access point (AP) at the MAC (medium access control) layer until it is correctly received by the communication station STA at the MAC layer. The beacon interval is an interval at which beacons are periodically transmitted from the AP. Therefore, if the beacon interval is long, even if data addressed to the STA arrives at the AP after sending out the PS polling, the STA cannot know that there is data addressed to itself until the next beacon is received. In some BI configurations, as a result of the dependency between the beacon interval BI and the downlink delay, the downlink delay may exceed a certain threshold limit and may no longer be acceptable for some applications. This is extremely important for real-time applications such as VoIP (Voice over IP).

  In order to remove the dependency between beacon interval BI and downlink delay, several modifications of the standard power saving mode are being considered. The approach being considered can be divided into two different groups.

  One is a proactive method (hereinafter referred to as a proactive method). According to this technique, the communication station transmits a PS poll at a specific time regardless of reception of a beacon, thereby eliminating the dependency between the BI and the downlink delay.

  The other is a reactive method (hereinafter referred to as a reactive method). According to this method, the communication station transmits PS polling by using the time when it wakes up from the power saving mode PSM in order to transmit the data frame. This eliminates the dependency between BI and downlink delay. However, in the case of the reactive method, since the data transmission timing from the communication station is used, there remains an inconvenience that dependency on the uplink data transmission rate occurs. As for the proactive method and the reactive method, the specification of Japanese Patent Application No. 2003-46991 filed with the Japan Patent Office on February 25, 2003 (published on September 16, 2004). See Japanese Patent Application Laid-Open No. 2004-260386.

  The above two improvements, proactive and reactive, have similar problems with respect to assuming certain downlink / uplink traffic patterns. In general, in the case of the proactive method, it is ensured that the maximum downlink delay is not exceeded by setting a certain interval shorter than the beacon interval as the interval at which PS polling is transmitted. However, depending on the application, PS polling may be generated unnecessarily as a result of this approach. For example, in the case of web browsing where frames are received at the access point as bursts rather than at a constant rate, unnecessary PS polling is likely to occur.

The reactive approach is very disadvantageous in that a large amount of PS polling is generated for very large amounts of uplink data traffic (eg, in connection with ftp uplink transfers). Such a large amount of PS polling is completely unnecessary for lower data rate downlink applications.
JP 2004-260386 A

  To solve the above problems, several PSM configurations can be defined according to the downlink delay required for each application. However, this means considerable additional overhead for the user. This is because the user will have to choose between several options depending on their situation. Such additional overhead is not actually user friendly.

  The present invention provides a method for optimizing the energy consumption of communication stations in the network so that the adaptation of the communication stations to the actual data traffic is possible without the active involvement of the user.

  A method for optimizing the energy consumption of a network communication station according to the invention is according to claim 1, wherein the communication station receives the downlink data traffic and the uplink data traffic to be transmitted at a certain interval MAC (medium access). Controlled) layer, characterized by selecting an adaptive power saving mode based on the ratio of downlink data traffic to uplink data traffic, or downlink data traffic received at a certain interval .

  The conventional general method does not take into account the actual data traffic of the communication station, so the station's energy consumption is not optimized for unnecessarily transmitted PS polling.

  On the other hand, according to the present invention, energy consumption can be optimized when a communication station monitors downlink data traffic to be received and uplink data traffic to be transmitted at a certain time interval at the MAC layer. . Based on this information, the communication station can determine whether current uplink and downlink traffic exhibits symmetric or asymmetric characteristics.

  According to the present invention, a power saving mode adapted to this situation is selected based on the ratio of downlink data traffic to uplink data traffic or downlink data traffic received at a specific interval. . In this power saving mode, the PS polling required to meet the maximum allowed downlink delay is transmitted, so that according to the method of the present invention, the period during which the communication station can remain in the energy saving “sleep mode” As well as the signaling load is reduced.

  It should be noted that in the case of the method according to the invention, future data traffic must be predictable. Here, “future” means a period within a sufficient range of several milliseconds. This condition is usually met, especially in the case of real-time applications, for example voice applications.

FIG. 1 is a schematic diagram schematically illustrating an embodiment of a network communication station energy consumption optimization method according to the present invention, FIG. 2 is a block diagram illustrating a schematic configuration of a communication station according to the present embodiment, and FIG. It is a flowchart which shows this operation | movement.
The UL / DL data monitor shown in FIG. 2 monitors uplink data sent from the upper layer to the lower layer through the MAC layer and transmitted, and received downlink data sent from the lower layer to the upper layer through the MAC layer, respectively. The power saving mode PSM, which will be described later, is controlled by the PSM control unit.

  For the preferred embodiment, when calculating the ratio of downlink data traffic to uplink data traffic, only the number of frames transmitted and received by the communication station is referenced, as shown in step S101 of FIG. Is not referenced. Such an approach is beneficial because the period required for data transmission is generally well below the time required to access the wireless channel.

If the calculated ratio is close to 1, this indicates that downlink data traffic and uplink data traffic are fairly symmetric. On the other hand, a ratio far from 1 indicates that it is asymmetric.
As shown in steps S102 and S103 of FIG. 3, when the ratio of the downlink data traffic to the uplink data traffic is larger than 1 (YES in step S103), it is preferable to select the proactive power saving mode ( Step S104). Unlike reactive methods, proactive power-saving modes (ie, sending PS polls at certain intervals regardless of whether or not a beacon is received) can be used in situations where there is heavy downlink data traffic. There is an advantage that the delay of the packet addressed to the communication station buffered at the point is shortened.

  On the other hand, when the ratio of downlink data traffic to uplink data traffic is smaller than 1 (NO in step S103), it is desirable to select a reactive power saving mode (step S105). In the reactive power saving mode, PS polling is transmitted anyway when the communication station is woken up by uplink data traffic. Therefore, a reactive approach when uplink data traffic is larger can save energy better.

  In order to transmit PS polling as efficiently as possible, the time interval at which PS polling is transmitted from the communication station to the access point is the ratio of downlink data traffic to uplink data traffic or during a certain time interval. Is defined based on downlink data traffic (DL / time) received in In other words, by referring to the traffic ratio or DL / time, it is possible to define the PS polling interval in the proactive power saving mode and determine the PS polling transmission rate in the reactive power saving mode.

  To further optimize energy consumption, the selected power saving mode automatically adapts to changes in the ratio of downlink data traffic to uplink data traffic. Such adaptive operation can react to the data mix due to aggregated data traffic when calculating the ratio of downlink data traffic to uplink data traffic. Thus, energy can be saved significantly, especially when the user is running several applications simultaneously.

  For one embodiment specifically for real-time applications, the power saving mode is selected to keep the maximum downlink delay below an acceptable value. By doing so, it is ensured that delay sensitive data, eg voice data, is received on time by the communication station. There are various variations on the algorithm related to the maximum downlink delay, but there is no particular limitation here.

  Note that the method according to the present invention can be implemented in a communication station STA such as a mobile terminal of a network by executing a program for calculating the traffic ratio and comparing the traffic ratio described above on a program control processor. Finally, it should be noted that there are several possibilities for implementing and improving the teachings of the present invention, to which reference should be made to the claims subordinate to claim 1.

FIG. 1 is a schematic diagram schematically showing an embodiment of a network communication station energy consumption optimization method according to the present invention. It is a block diagram which shows the schematic structure of the communication station by this embodiment. It is a flowchart which shows operation | movement of this embodiment.

Claims (15)

In a method for optimizing the energy consumption of a communication station (STA) in a network,
Monitor downlink data traffic received and transmitted uplink data traffic by a communication station (STA) during a certain time interval;
Adaptively selecting a power saving mode (PSM) based on a ratio of the downlink data traffic and the uplink data traffic;
A method for optimizing the energy consumption of a communication station, characterized by:   The method of claim 1, wherein the number of transmitted and received data frames is referenced to calculate a ratio of the downlink data traffic and the uplink data traffic.   The method according to claim 1 or 2, wherein a proactive power saving mode (PSM) is selected when the ratio of the downlink data traffic to the uplink data traffic is greater than one.   The method according to claim 1 or 2, wherein a reactive power saving mode (PSM) is selected when the ratio of the downlink data traffic to the uplink data traffic is less than one.   The time interval at which power saving (PS) polling is transmitted from the communication station to an access point (AP) is defined based on a ratio of the downlink data traffic to the uplink data traffic. Item 5. The method according to any one of Items 1 to 4.   A time interval at which power saving (PS) polling is transmitted from the communication station to an access point (AP) is defined based on downlink data traffic received during a certain time interval. The method of any one of Claims 1-4.   7. The selected power saving mode (PSM) automatically adapts to changes in the ratio between downlink data traffic and uplink data traffic. the method of.   The method according to claim 1, wherein the power saving mode (PSM) is selected by an algorithm for maximum downlink delay.   9. The method according to any of claims 1 to 8, wherein the downlink data traffic and the transmitting uplink data traffic are monitored at a MAC (medium access control) layer. In a method for optimizing the energy consumption of a communication station (STA) in a network,
Monitoring downlink data traffic received by a station (STA) during a certain time interval;
Selecting an adaptive power saving mode (PSM) based on downlink data traffic received during a certain time interval;
A method of optimizing the energy consumption of a station characterized by:   2. The network according to claim 1, wherein the network is a wireless LAN conforming to IEEE standard 802.11, and the communication station (STA) is a communication device of a laptop type, a palmtop type, or a movable type. The method in any one of -10. In communication stations that can communicate within the network,
Monitoring means for monitoring incoming downlink data traffic and outgoing uplink data traffic during a certain time interval;
PSM control means for adaptively selecting a power saving mode (PSM) based on a ratio of the downlink data traffic and the uplink data traffic;
A communication station characterized by comprising: In communication stations that can communicate within the network,
Monitoring means for monitoring incoming downlink data traffic during a certain time interval;
PSM control means for selecting an adaptive power saving mode (PSM) based on downlink data traffic received during a certain time interval;
A communication station characterized by comprising: In a program for realizing a function for optimizing the energy consumption of a communication station (STA) in a network in a computer,
Monitoring downlink data traffic received and transmitted uplink data traffic by a communication station (STA) during a certain time interval;
Adaptively selecting a power saving mode (PSM) based on a ratio of the downlink data traffic and the uplink data traffic;
The program characterized by having. In a program for realizing a function to optimize energy consumption of a communication station (STA) in a network in a computer,
Monitoring downlink data traffic received by a station (STA) during a certain time interval;
Selecting an adaptive power saving mode (PSM) based on downlink data traffic received during a particular time interval;
The program characterized by having.

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